CN111884039A - Novel light emitting laser, light emitting assembly and assembling method thereof - Google Patents
Novel light emitting laser, light emitting assembly and assembling method thereof Download PDFInfo
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- CN111884039A CN111884039A CN202010871633.5A CN202010871633A CN111884039A CN 111884039 A CN111884039 A CN 111884039A CN 202010871633 A CN202010871633 A CN 202010871633A CN 111884039 A CN111884039 A CN 111884039A
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01S—DEVICES USING THE PROCESS OF LIGHT AMPLIFICATION BY STIMULATED EMISSION OF RADIATION [LASER] TO AMPLIFY OR GENERATE LIGHT; DEVICES USING STIMULATED EMISSION OF ELECTROMAGNETIC RADIATION IN WAVE RANGES OTHER THAN OPTICAL
- H01S5/00—Semiconductor lasers
- H01S5/02—Structural details or components not essential to laser action
- H01S5/022—Mountings; Housings
- H01S5/02208—Mountings; Housings characterised by the shape of the housings
- H01S5/02212—Can-type, e.g. TO-CAN housings with emission along or parallel to symmetry axis
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Abstract
The invention relates to the field of optical transmission, in particular to a novel light-emitting laser, a light-emitting component and an assembling method thereof, wherein the novel light-emitting laser comprises a tube seat, a heat sink, a laser and a tube cap, the tube cap covers the tube seat and surrounds the tube seat to form a sealed space, a first bulge is arranged at the part of the tube seat in the sealed space, the heat sink is eutectic on the first bulge, the plane vertical to the axle wire of the tube seat is taken as a horizontal plane, the laser is eutectic on the heat sink in a way that the light-emitting surface is inclined compared with the horizontal plane, and a light beam emitted by the laser from a light port can penetrate through a lens on the tube cap and is not parallel to the axle. The light emitting component is formed by connecting a novel light emitting laser to the adapter plug core sequentially through a seal welding pipe body and an adjusting ring. The invention can reduce the production cost of the light emitting component under the condition of ensuring the product quality.
Description
Technical Field
The invention relates to the field of optical transmission, in particular to a novel light emitting laser, a light emitting assembly and an assembling method thereof.
Background
In an Optical communication transmission system, a light emitting module (Transmitting Optical Sub-Assembly) plays a role in converting electricity into light, and the quality of the light emitting module directly affects the quality and distance of signal transmission.
The TO-can packaging process of the traditional light emitting laser comprises the following main raw materials of a tube seat, a heat sink, a laser, a monitoring detector MPD, a detector MPD gasket, a plurality of gold wires and a tube cap, wherein the production process comprises the following steps: the method comprises the following steps of (1) attaching an MPD gasket on a chute of a tube seat in a die bonding silver adhesive attaching mode, baking at a high temperature of 170 ℃ for 1 hour, then attaching a monitoring detector MPD on the MPD gasket in the die bonding silver adhesive attaching mode, baking at the same high temperature of 170 ℃ for 1 hour, (2) attaching a heat sink and a laser on the tube seat in a eutectic gold-tin solder mode to complete the assembly of the heat sink and the laser, (3) connecting a chip and the corresponding position of the tube seat by using a gold thread in a wire welding process, and (4) sealing and welding a tube cap on the tube seat by using a resistance sealing and welding process.
Traditional optical transmission subassembly equipment, main raw and other materials have the optical transmission laser instrument, the seal welding body, the adjustable ring, the adapter lock pin of TO-can encapsulation, like rate more than 10G, still need increase the isolator, and the main objective is for guaranteeing long distance transmission quality, and production technology is: and (2) sealing and welding the sealing and welding pipe body on the optical emission laser by adopting a resistance sealing and welding process, coupling the adapter plug core and the optical emission laser to the optimal power requirement by utilizing an emission coupling machine, and sequentially welding a penetration welding position and a lap welding position of an adjusting ring to complete the assembly of the optical emission assembly.
Disclosure of Invention
The invention aims to reduce the production cost of the light emitting component under the condition of ensuring the product quality.
In order to achieve the purpose, the technical scheme of the invention is as follows:
the utility model provides a novel light emission laser, includes tube socket, heat sink, laser instrument, pipe cap, the pipe cap lid is on the tube socket and encloses and form the confined space, and the position that the tube socket is arranged in the confined space has first arch, heat sink eutectic is on first arch to the plane of perpendicular tube socket axis is the horizontal plane, the laser instrument with go out the mode eutectic that the plain noodles inclines than the horizontal plane and arrive on the heat sink, the laser instrument is followed the light beam that the light mouth jetted out and is seen through the lens on the pipe cap, and does not keep parallel with the axis of tube socket.
Further, the light emitting surface of the laser is inclined at an angle of 1-10 degrees compared with the horizontal plane.
Further, the light emitting surface is specifically inclined at an angle of 5 degrees compared with the horizontal plane.
Further, the body of the heat sink is a ceramic gasket.
Furthermore, the novel light emitting laser also comprises a monitoring detector and an MPD gasket, wherein a second bulge adjacent to the first bulge is arranged on the part of the tube seat in the sealed space, the top surface of the second bulge is provided with an inclined groove, the MPD gasket is fixedly bonded on the inclined groove, the monitoring detector is attached to the MPD gasket, and the photosensitive area of the monitoring detector is aligned to the backlight part of the laser.
Furthermore, one side surface of the first protrusion, which is close to the central axis of the tube seat, is a vertical surface, and the heat sink and the laser are located on the vertical surface.
Further, the new light emitting laser is a TO-can package.
Still provide an optical emission subassembly, including seal welding body, adjustable ring, adapter lock pin and above-mentioned novel optical emission laser instrument, novel optical emission laser instrument is connected to the adapter lock pin through seal welding body, adjustable ring in proper order on, the adapter lock pin is aimed at to optical axis of optical emission laser instrument.
There is also provided a method of assembling the above light emitting assembly, comprising:
step A, sealing and welding the sealing and welding pipe body after the sealing and welding pipe body is pressed on the light emitting laser;
and B, coupling the adapter plug core and the light emitting laser to the optimal power by using a transmitting coupling machine, penetrating and welding the adjusting ring, and coupling the adapter plug core and the light emitting laser to the optimal power to complete lap welding of the adjusting ring and the seal welding pipe body.
Further, the step B is implemented by adopting a resistance seal welding process.
And further, the laser coupling welding machine is provided with 3 welding guns, each welding gun inclines by 30 degrees, and in the step B, the inclined welding guns of the laser coupling welding machine are used for carrying out 90-degree angle lap welding on the top surface of the seal-welded pipe body and the bottom plane of the adjusting ring.
Further, the step B specifically includes:
b1, after a lower chuck of a laser coupling welding machine clamps a light emitting laser of a sealed and welded pipe body and drives the light emitting laser to be triggered, after an upper clamping hand of the laser coupling welding machine clamps an adapter insertion core, a coupling machine table adjusts the position of an X, Y, Z shaft of the upper clamping hand until the triggered light of the light emitting laser can be transmitted out through the adapter insertion core and the laser machine table monitors that the optimal power is met, the upper clamping hand is lifted out of focus to perform penetration welding so as to complete the coupling;
and B2, flattening the bottom plane of the adjusting ring welded on the adapter plug core and the top surface of the seal welding pipe body by an upper clamping hand, and continuously coupling to a laser machine to monitor that the optimal power is met, and performing lap welding by lifting off in a defocusing manner to complete the two-stage coupling.
Further, in the step B2, the lap welding is performed by specifically lifting 15um out of focus.
The invention is TO meet the fierce market environment, win the market with low cost, high-quality products, the light-transmitting assembly changes the TO-can laser packaging angle, cancel the optical isolator of the light-transmitting assembly, specifically, keep original mounting mode of MPD and MPD gasket packaged by TO-can unchanged, the eutectic crystal of the laser requires the inclination TO set the angle mounting, then finish the wire-welding and cap-sealing process in order, when the novel light-transmitting laser formed in this way is assembled TO form the light-transmitting assembly, the isolator can be cancelled, so as TO reduce the production process and the production cycle of the products, improve the production efficiency, achieve the cost reduction of products by more than 35%, meanwhile, the novel light-transmitting laser can also guarantee the product quality because the laser is inclined, the reflected light of the tube cap lens can not vertically hit into the laser light-emitting strip TO influence the light-emitting quality.
The foregoing description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the above and other objects, features, and advantages of the present invention more clearly understandable.
Drawings
Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like elements throughout the drawings.
Fig. 1 shows a cross-sectional view of a light emitting laser of a TO-can package of the present invention.
Fig. 2 shows a front view of the package inside the light emitting laser of the TO-can package of the present invention.
Fig. 3 shows an exploded view of a light emitting laser of the present invention.
Fig. 4 shows a schematic view of the structure of a light emitting module of the present invention.
Figure 5 shows an exploded view of a light emitting assembly of the present invention.
Fig. 6 shows a test eye diagram of a light emitting assembly of the present invention.
Detailed Description
Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.
The light emitting laser of this embodiment is shown in fig. 1-3, and includes a tube seat 1, an MPD gasket 2, an MPD monitoring detector 3, a heat sink 4, a laser 5, a gold wire 6, and a tube cap 7, where the tube cap 7 covers the tube seat 1, and the two surround to form a sealed space, a first protrusion is disposed at a position of the tube seat 1 in the sealed space, a side surface of the first protrusion close to a central axis of the tube seat 1 is a vertical surface, the heat sink 2 is a ceramic gasket and is eutectic-crystallized on the vertical surface of the first protrusion, a plane perpendicular to the central axis of the tube seat 1 is a horizontal plane, the laser 3 is eutectic-crystallized on the heat sink 2 in a manner that a light emitting surface is inclined by an angle of 5 degrees from the horizontal plane, a light beam emitted from a light port of the laser 5 may penetrate through a lens on the tube cap 7 and is not parallel to the central axis of the tube seat 1, two ends of the gold wire 6 are respectively, The gold wires 6 establish electrical connection with the corresponding devices.
The part of the tube seat 1, which is positioned in the sealed space, is provided with a second bulge, the second bulge is positioned on the side of the upper vertical surface of the first bulge, the top surface of the second bulge is horizontal and is provided with a 12-degree inclined groove, the MPD gasket 2 is fixedly bonded on the inclined groove, the MPD monitoring detector 3 is attached to the MPD gasket 2, and the photosensitive area of the MPD monitoring detector is aligned to the backlight part of the laser 5. And establishing the electrical connection relationship between the MPD monitoring detector 3 and the corresponding device on the tube seat 1 through the gold wire 6.
The light emitting laser is packaged by the following production process:
s11, adopting a die bond silver adhesive bonding process to attach the MPD gasket 2 to a chute of the tube seat 1, and baking at a high temperature of 170 ℃ for 1 hour to finish fixation;
s12, adopting a solid crystal silver adhesive bonding process to attach the MPD monitoring detector 3 to the MPD gasket 2, and baking at a high temperature of 170 ℃ for 1 hour to finish fixation;
s13, eutectic gold-tin solder paste technology is adopted, the heat sink 4 and the laser 5 are eutectic to the corresponding position of the first protruding vertical surface on the tube seat 1, wherein the light emitting surface of the laser 5 is inclined at an angle of 5 degrees compared with the horizontal plane for assembly;
s14, welding a wire, namely welding a gold wire 6 to corresponding bonding pad positions on the laser 5 and the MPD monitoring detector 3;
and S15, a cap sealing process, namely packaging the tube cap 7 and the tube seat 1 by adopting a resistance sealing welding machine.
The TO-can package of the light emitting laser 8 in fig. 4 is completed in the above.
Referring to fig. 4, after the optical transmission laser 8 is packaged, it is assembled with the sealing welding pipe body 9, the adjusting ring 10 and the adapter ferrule 11 to form an optical transmission assembly. Specifically, the TO-can packaged optical emission laser 8 is connected TO the adapter ferrule 11 through the seal-welded tube body 9 and the adjusting ring 10 in this order, wherein the optical axis of the optical emission laser 8 is kept aligned with the adapter ferrule 11.
The light emitting assembly is assembled by the following production process:
s21, adopting a resistance seal welding process TO press fit the seal welding pipe body 9 on the TO-can packaged light emitting laser 8 and then carrying out seal welding;
s22, laser coupling welding is used, wherein a laser coupling welding machine is designed to be a 3-beam welding gun, the welding gun is inclined by 30 degrees, the main purpose is to ensure that the top surface of the seal-welded pipe body 9 is in lap welding with a 90-degree angle of the bottom plane of the adjusting ring 10, and the specific production operation is as follows: the lower chuck of the laser coupling welding machine clamps the laser 8 which is sealed and welded with the sealing and welding pipe body 9, a working current with a fixed size is provided for the laser 8, the laser 8 is triggered, the upper clamp clamps the adapter plug core 11, the coupling machine station transmits the light emitted by the laser 8 under the action of triggering through the adapter plug core 11 by adjusting the position of an X, Y, Z shaft of the upper clamp, when the large-area PD of the laser machine station monitors required power, the upper clamp is lifted out of focus to carry out penetration welding, and the purpose of defocusing before welding is to pull up the adjusting ring 10 to perform size compensation in advance after welding; the welding back adjustable ring 10 and adapter lock pin 11 accomplish fixedly, and so far, one section coupling is accomplished, then carries out two sections couplings, goes up the tong and flattens the action with the sealing welding body 9 top surface at adjustable ring 10 bottom plane on adapter lock pin 11, continues coupling out of focus after the maximum power and lifts 15um and carry out the overlap joint welding, and this before welding out of focus purpose is that the welding spot pulls down adjustable ring 10 so carry out size compensation in advance for the welding back solder joint, and so far two sections couplings are accomplished, and the product is accomplished welded fastening.
So far, the light emitting module of this embodiment has the following advantages after the light emitting module is assembled:
1. in the traditional production process, the angle of the TO-can packaged laser 5 is required TO be +/-1 degree, the angle of the laser 5 in the embodiment is required TO be +/-5 degrees, the angle tolerance is large compared with that before the laser is not changed, meanwhile, the precision requirement can be met according TO the existing eutectic equipment, the eutectic equipment does not need TO be optimized, and the TO-can package can be normally produced;
2. in the light emitting laser 8 of the embodiment, because the laser 5 is designed to incline at an angle of 5 degrees, light emitted by the laser 5 during working is transmitted in a light path, reflected light of a lens inside the pipe cap 7 cannot vertically enter a light emitting strip of the laser 5 to cause internal light crosstalk, and light transmission quality is ensured;
3. in the traditional transmitting component, isolators are required for the transmission at the speed of more than 10G and the transmission distance of more than LR, the transmission quality of the module is ensured to be more than 10Km, and the isolators are not increased at the speed of 2.5G; according TO the TO-can packaging structure optimized by the embodiment, the transmission quality is better at the rate of more than 2.5G, the isolator can be omitted at the rate of more than 10G, and the long-distance transmission requirement can be met by testing and verifying the eye diagram as shown in figure 6;
4. the light emission subassembly of this embodiment does not adorn the isolator and can satisfy transmission quality and distance requirement, reduces isolator equipment process and production cycle, has improved production efficiency, because the isolator accounts for more than 35% of whole light emission subassembly cost in the traditional scheme, so the light emission subassembly of this embodiment can be when guaranteeing product quality, reduction in production cost by a wide margin.
Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the protection scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.
Claims (10)
1. The utility model provides a novel light emission laser, includes tube socket, heat sink, laser instrument, pipe cap, the pipe cap lid is on the tube socket and encloses and form the enclosure space, and the position that the tube socket is located the enclosure space has first arch, heat sink eutectic on first arch, its characterized in that:
and a plane vertical to the central axis of the tube seat is taken as a horizontal plane, the laser is eutectic-crystallized on the heat sink in a mode that a light emergent surface is inclined compared with the horizontal plane, and a light beam emitted from the laser port can penetrate through the lens on the tube cap and is not parallel to the central axis of the tube seat.
2. A novel optical transmission laser as claimed in claim 1, wherein: the light emitting surface of the laser is inclined at an angle of 1-10 degrees compared with the horizontal plane.
3. A novel optical transmission laser as claimed in claim 2, wherein: the light-emitting surface is inclined at an angle of 5 degrees compared with the horizontal plane.
4. A novel optical transmission laser as claimed in claim 1, wherein: the body of the heat sink is a ceramic gasket.
5. A novel optical transmission laser as claimed in claim 1, wherein: the novel light emitting laser further comprises a monitoring detector and an MPD gasket, wherein a second bulge adjacent to the first bulge is arranged on the position, located in the sealed space, of the tube seat, the top surface of the second bulge is provided with an inclined groove, the MPD gasket is fixedly bonded on the inclined groove, the monitoring detector is attached to the MPD gasket, and the light sensitive area of the monitoring detector is aligned to the backlight part of the laser.
6. Light emission subassembly, including seal welding body, adjustable ring, adapter lock pin, its characterized in that: the novel optical transmission laser also comprises a novel optical transmission laser as claimed in any one of claims 1 to 5, wherein the novel optical transmission laser is connected to the adapter plug core through a sealing welding pipe body and a regulating ring in sequence, and the optical axis of the optical transmission laser is aligned with the adapter plug core.
7. The method of assembling a light emitting module of claim 6, comprising:
step A, sealing and welding the sealing and welding pipe body after the sealing and welding pipe body is pressed on the light emitting laser;
and B, coupling the adapter plug core and the first section of the light emitting laser to the optimal power by using a laser coupling welding machine, then penetrating and welding the adjusting ring, and coupling the adapter plug core and the second section of the light emitting laser to the optimal power to complete lap welding of the adjusting ring and the seal welding pipe body.
8. The packaging method of claim 7, wherein the laser coupling welder has 3 welding torches, each welding torch is inclined at an angle of 30 degrees, and in the step B, the top surface of the sealed and welded pipe body and the bottom plane of the adjusting ring are lap-welded at an angle of 90 degrees by using the inclined welding torch of the laser coupling welder.
9. The packaging method according to claim 7 or 8, wherein the step B specifically includes:
b1, after a lower chuck of a laser coupling welding machine clamps a light emitting laser of a sealed and welded pipe body and drives the light emitting laser to be triggered, after an upper clamping hand of the laser coupling welding machine clamps an adapter insertion core, a coupling machine table adjusts the position of an X, Y, Z shaft of the upper clamping hand until the triggered light of the light emitting laser can be transmitted out through the adapter insertion core and the laser machine table monitors that the optimal power is met, the upper clamping hand is lifted out of focus to perform penetration welding so as to complete the coupling;
and B2, flattening the bottom plane of the adjusting ring welded on the adapter plug core and the top surface of the seal welding pipe body by an upper clamping hand, and continuously coupling to a laser machine to monitor that the optimal power is met, and performing lap welding by lifting off in a defocusing manner to complete the two-stage coupling.
10. The packaging method according to claim 9, wherein step B2 is performed by lap welding with a 15um lift off.
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Cited By (1)
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CN114552367A (en) * | 2022-02-17 | 2022-05-27 | Nano科技(北京)有限公司 | Light emitting device |
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